Low emissions electronic smoking device and emissions filtering device

ABSTRACT

The present disclosure provides, in one embodiment, an electronic smoking device comprising a mouthpiece; a vaporizer portion in communication with the mouthpiece; a filter cartridge assembly in communication with the mouthpiece; an inlet check valve; and an outlet check valve. The vaporizer portion comprises a heating element for heating a smoking material housed within the vaporizer portion. The inlet check valve permits air to be inhaled from the vaporizer portion into the mouthpiece, but substantially prohibits air from being exhaled through the mouthpiece into the vaporizer portion. The outlet check valve permits air to be exhaled through the mouthpiece into the filter cartridge assembly, but substantially prohibits air from being inhaled from the filter cartridge assembly into the mouthpiece.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No.16/680,293, filed Nov. 11, 2019, which is a continuation of Ser. No.15/884,082, filed Jan. 30, 2018, which claims priority to U.S.Provisional Application No. 62/452,871, filed Jan. 31, 2017, which arehereby incorporated by reference in their entirety.

FIELD OF THE INVENTION

The present technology relates to the field of electronic smokingdevices. More particularly, the present technology relates to a lowemissions electronic smoking device.

BACKGROUND

Smoking plant material has been practiced in numerous cultures for manycenturies. However, as scientific and medical evidence has mountedregarding the environmental and health risks of smoking emissions (e.g.,second-hand smoke), traditional smoking of tobacco or other plant-basedmaterials has been banned in many public spaces. Furthermore, socialnorms have generally come to discourage smoking in any venue in whichothers may be affected by smoking emissions.

Electronic smoking devices, commonly known as e-cigarettes, vaporizers,or vapes, have grown in popularity to replace or supplement traditionalsmoking mediums, such as cigarettes or pipes. Electronic smoking deviceshave generally been purported to be healthier than, for example,traditional cigarettes. Electronic smoking devices have also generallybeen purported to have fewer harmful emissions than traditional smokingmediums. However, electronic smoking devices do still cause emissions,which may potentially pose a health and/or environmental risk, and maybe viewed negatively in a public or social environment.

SUMMARY OF THE INVENTION

In one embodiment, the present disclosure can be embodied in anelectronic smoking device comprising a mouthpiece; a vaporizer portionin communication with the mouthpiece; a filter cartridge assembly incommunication with the mouthpiece; an inlet check valve; and an outletcheck valve. The vaporizer portion comprises a heating element forheating a smoking material housed within the vaporizer portion. Theinlet check valve permits air to be inhaled from the vaporizer portioninto the mouthpiece, but substantially prohibits air from being exhaledthrough the mouthpiece into the vaporizer portion. The outlet checkvalve permits air to be exhaled through the mouthpiece into the filtercartridge assembly, but substantially prohibits air from being inhaledfrom the filter cartridge assembly into the mouthpiece.

In an embodiment, the inlet check valve is a one-way valve which openswhen a user inhales from the mouthpiece, and seals when the user exhalesinto the mouthpiece.

In an embodiment, the outlet check valve is a one-way valve which openswhen a user exhales into the mouthpiece, and seals when the user inhalesfrom the mouthpiece.

In an embodiment, the outlet check valve is contained within the filtercartridge assembly.

In an embodiment, the filter cartridge assembly is a replaceablecomponent of the electronic smoking device.

In an embodiment, the inlet check valve is contained within thevaporizer portion.

In an embodiment, the vaporizer portion comprises a replaceablevaporizer cartridge assembly for housing the smoking material, and theinlet check valve is contained within the replaceable vaporizercartridge assembly.

In an embodiment, the filter cartridge assembly comprises: an outerbody; a porous filter housed within the outer body; an inlet cap securedto a first end of the outer body; and a vent cap secured to a second endof the outer body.

In an embodiment, the outlet check valve is secured between the outerbody and the vent cap.

In an embodiment, the porous filter comprises a mesh filter.

In an embodiment, the mesh filter is a stainless steel filter or apolymer mesh filter.

In an embodiment, the filter cartridge assembly further comprises a HEPAfilter surrounding the mesh filter.

In another embodiment, the present disclosure may also be embodied in afilter cartridge assembly for filtering emissions blown into anelectronic smoking device. The filter cartridge assembly comprises aninlet cap in communication with a mouthpiece of the electronic smokingdevice for receiving air exhaled into the electronic smoking device; aporous filter in communication with the inlet cap such thatsubstantially all air that is blown into the filter cartridge assemblypasses through the porous filter; and an outlet check valve whichpermits air to be blown into the filter cartridge assembly andsubstantially prohibits air from being inhaled out of the filtercartridge assembly.

In an embodiment, the porous filter comprises a mesh filter.

In an embodiment, the mesh filter comprises at least one of a stainlesssteel material or a polymer material.

In an embodiment, the filter cartridge assembly further comprises a HEPAfilter surrounding the mesh filter.

In an embodiment, the outlet check valve is a one-way valve which openswhen a user exhales into the filter cartridge assembly, and seals whenthe user inhales.

In an embodiment, the filter cartridge assembly further comprises anouter body housing the porous filter; and a vent cap secured to a firstend of the outer body. The inlet cap is secured to a second end of theouter body opposite the first end. The outlet check valve permits air tobe blown into the inlet cap, through the outer body, and out the ventcap, and substantially prohibits air from being inhaled into the ventcap, through the outer body, and out the inlet cap.

In an embodiment, the outlet check valve is positioned within the outerbody between the inlet cap and the vented outlet cap.

In yet another embodiment, the present disclosure may be embodied in anelectronic smoking device comprising a mouthpiece; a vaporizer portionin communication with the mouthpiece; and a filter cartridge assembly incommunication with the mouthpiece. The vaporizer portion comprises areplaceable vaporizer cartridge assembly configured to house a smokingmaterial; a heating element for heating the smoking material housedwithin the replaceable vaporizer cartridge assembly; and an inlet checkvalve which permits air to be inhaled from the replaceable vaporizercartridge assembly into the mouthpiece and substantially prohibits airfrom flowing from the mouthpiece into the replaceable vaporizercartridge assembly. The filter cartridge assembly comprises one or morefilters and an outlet check valve which permits air to be exhaled fromthe mouthpiece into the filter cartridge assembly and substantiallyprohibits air from being inhaled from the filter cartridge assembly intothe mouthpiece.

The present disclosure may also be embodied in one or more methods forusing, assembling, and/or making the various electronic smoking devicesand filter cartridge assemblies described herein.

Other features and advantages of the invention should become apparentfrom the following description of the preferred embodiments, taken inconjunction with the accompanying drawings, which illustrate, by way ofexample, the principles of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A illustrates a perspective view of an electronic smoking device,according to an embodiment of the present disclosure.

FIG. 1B illustrates an exploded view of the electronic smoking device ofFIG. 1A, according to an embodiment of the present disclosure.

FIG. 2A illustrates a front plan view of the electronic smoking deviceof FIG. 1A, according to an embodiment of the present disclosure.

FIG. 2B illustrates a cross-sectional view of the electronic smokingdevice of FIG. 2A taken along line 2B-2B of FIG. 2A, according to anembodiment of the present disclosure.

FIG. 2C illustrates a close-up view of the cross-sectional view shown inFIG. 2B defined by the area 2C of FIG. 2B, according to an embodiment ofthe present disclosure.

FIGS. 3A-C illustrate various cross-sectional views of a mouthpiece anddiverter valve, according to an embodiment of the present disclosure.

FIG. 4 illustrates an exploded view of a filter cartridge assembly,according to an embodiment of the present disclosure.

FIG. 5A illustrates a plan view of the filter cartridge assembly of FIG.4, according to an embodiment of the present disclosure.

FIG. 5B illustrates a cross-sectional view of the filter cartridgeassembly of FIG. 5A taken along line 5B-5B of FIG. 5A, according to anembodiment of the present disclosure.

FIG. 5C illustrates a cross-sectional view of the filter cartridgeassembly of FIG. 5A taken along line 5C-5C of FIG. 5A, according to anembodiment of the present disclosure.

FIG. 6A illustrates a plan view of the filter cartridge assembly of FIG.4, according to an embodiment of the present disclosure.

FIG. 6B illustrates a cross-sectional view of the filter cartridgeassembly of FIG. 6A taken along line 6B-6B of FIG. 6A, according to anembodiment of the present disclosure.

FIG. 6C illustrates a cross-sectional view of the filter cartridgeassembly of FIG. 6A taken along line 6C-6C of FIG. 6A, according to anembodiment of the present disclosure.

FIG. 7A illustrates an exploded view of a filter cartridge assembly,according to an embodiment of the present disclosure.

FIG. 7B illustrates an exploded view of a concentric 4 stage filter,according to an embodiment of the present disclosure.

FIG. 8A illustrates a plan view of the filter cartridge assembly of FIG.7A, according to an embodiment of the present disclosure.

FIG. 8B illustrates a cross-sectional view of the filter cartridgeassembly of FIG. 8A taken along line 8B-8B of FIG. 8A, according to anembodiment of the present disclosure.

FIG. 8C illustrates a cross-sectional view of the filter cartridgeassembly of FIG. 8A taken along line 8C-8C of FIG. 8A, according to anembodiment of the present disclosure.

FIG. 9A illustrates a plan view of the filter cartridge assembly of FIG.7A, according to an embodiment of the present disclosure.

FIG. 9B illustrates a cross-sectional view of the filter cartridgeassembly of FIG. 9A taken along line 9B-9B of FIG. 9A, according to anembodiment of the present disclosure.

FIG. 9C illustrates a cross-sectional view of the filter cartridgeassembly of FIG. 9A taken along line 9C-9C of FIG. 9A, according to anembodiment of the present disclosure.

FIG. 10 illustrates perspective views of various electronic smokingdevices having various ways of accessing a vaporizer portion of eachelectronic smoking device, according to various embodiments of thepresent disclosure.

FIG. 11A illustrates a side plan view of an electronic smoking device,according to an embodiment of the present disclosure.

FIG. 11B illustrates a front plan view of the electronic smoking deviceof FIG. 11A, according to an embodiment of the present disclosure.

FIG. 12 illustrates a cross-sectional view of the electronic smokingdevice of FIG. 11B taken along line 12-12 of FIG. 11B, according to anembodiment of the present disclosure.

FIG. 13 illustrates an exploded view of the electronic smoking device ofFIG. 11A, according to an embodiment of the present disclosure.

FIG. 14 illustrates an exploded view of a filter cartridge assembly,according to an embodiment of the present disclosure

FIG. 15A illustrates a plan view of the filter cartridge assembly ofFIG. 14, according to an embodiment of the present disclosure.

FIG. 15B illustrates a cross-sectional view of the filter cartridgeassembly of FIG. 15A taken along line 15B-15B of FIG. 15A, according toan embodiment of the present disclosure.

FIG. 15C illustrates a close-up view of the filter cartridge assembly ofFIG. 15B, according to an embodiment of the present disclosure.

FIG. 15D illustrates a cross-sectional view of the filter cartridgeassembly of FIG. 15C taken along line 15D-15D of FIG. 15A, according toan embodiment of the present disclosure.

FIG. 16A illustrates a perspective view of an electronic smoking device,according to an embodiment of the present disclosure.

FIG. 16B illustrates an exploded view of the electronic smoking deviceof FIG. 16A, according to an embodiment of the present disclosure.

FIG. 17A illustrates a front plan view of the electronic smoking deviceof FIG. 16A, according to an embodiment of the present disclosure.

FIG. 17B illustrates a cross-sectional view of the electronic smokingdevice of FIG. 17A taken along line 17B-17B of FIG. 17A, according to anembodiment of the present disclosure.

FIG. 18A illustrates an exploded view of a filter cartridge assembly,according to an embodiment of the present disclosure.

FIG. 18B illustrates a front plan view of the filter cartridge assemblyof FIG. 18, according to an embodiment of the present disclosure.

FIG. 18C illustrates a cross-sectional view of the filter cartridgeassembly of FIG. 18B taken along the line 18C-18C of FIG. 18B, accordingto an embodiment of the present disclosure.

FIG. 19A illustrates an exploded view of a filter cartridge assembly,according to an embodiment of the present disclosure.

FIG. 19B illustrates a plan view of a mesh filter structure, accordingto an embodiment of the present disclosure.

FIG. 19C illustrates a cross-sectional view of the mesh filter structureof FIG. 19B taken along the line 19C-19C of FIG. 19B, according to anembodiment of the present disclosure.

FIG. 20A illustrates a perspective view of the electronic smoking deviceof FIG. 16A, according to an embodiment of the present disclosure.

FIG. 20B illustrates a somewhat exploded view of the electronic smokingdevice of FIG. 20A, according to an embodiment of the presentdisclosure.

The figures depict various embodiments of the disclosed technology forpurposes of illustration only, wherein the figures use like referencenumerals to identify like elements. One skilled in the art will readilyrecognize from the following discussion that alternative embodiments ofthe structures and methods illustrated in the figures can be employedwithout departing from the principles of the disclosed technologydescribed herein.

DETAILED DESCRIPTION

Low Emissions Electronic Smoking Device

Smoking plant material has been practiced in numerous cultures for manycenturies. However, as scientific and medical evidence has mountedregarding the environmental and health risks of smoking emissions (e.g.,second-hand smoke), traditional smoking of tobacco or other plant-basedmaterials has been banned in many public spaces. Furthermore, socialnorms have generally come to discourage smoking in any venue in whichothers may be affected by smoking emissions.

Electronic smoking devices, commonly known as e-cigarettes, vaporizers,or vapes, have grown in popularity to replace or supplement traditionalsmoking mediums, such as cigarettes or pipes. Electronic smoking deviceshave generally been purported to be healthier than, for example,traditional cigarettes. Electronic smoking devices have also generallybeen purported to have fewer harmful emissions than traditional smokingmediums. However, electronic smoking devices do still cause emissions,which may potentially pose a health and/or environmental risk, and maybe viewed negatively in a public or social environment.

Therefore, a need exists for an electronic smoking device that reduces,minimizes, and/or altogether eliminates harmful or undesirableemissions. Previous works by the inventors of the present disclosurehave presented improvements for addressing some of the problemsdiscussed above. These works include U.S. Pat. No. 9,402,422 to Shenkal,filed Nov. 3, 2014, issued Aug. 2, 2016, and entitled “HybridE-Cigarette/Vaporizer with Exhale Filter Capability,” and U.S. patentapplication Ser. No. 15/070,186 to Shenkal et al., filed Mar. 15, 2016,entitled “E-Cigarette With Valve Allowing Exhale Filter,” the entirecontents of which are hereby incorporated by reference as if fully setforth herein. The present disclosure provides for additional variationsand improvements on low emissions (or zero emissions) electronic smokingdevices capable of filtering smoking emissions.

FIG. 1A illustrates a perspective view of an electronic smoking device100, according to an embodiment of the present disclosure. FIG. 1Billustrates an exploded view of the electronic smoking device 100,according to an embodiment of the present disclosure. The electronicsmoking device 100 includes a mouthpiece 102 secured to a mid-enclosure104. In the example embodiment shown, the mouthpiece 102 has a curveddesign that is designed to ergonomically seal against a user's mouthwhile allowing for maximum inhale and/or exhale. In certain embodiments,the mouthpiece 102 can be a disposable and/or replaceable component.Further, in various embodiments, the mouthpiece 102 can be imbued withvarious flavors and/or scents (e.g., by impregnating the material of themouthpiece 102). The mid-enclosure 104 houses a cooker chamber 107. Thecooker chamber 107 is configured to contain a material to be heated andvaporized, such as liquid, oil, flower, or leaf material. The cookerchamber 107 can comprise a transparent material (such as glass or clearplastic), and the mid-enclosure 104 can include a transparent portion109 (or a cut-out portion) so that a user can view the materialcontained within the cooker chamber 107.

The cooker chamber 107 includes a coil 106 to heat material containedwithin the cooker chamber 107. The coil 106 is in electroniccommunication with a printed circuit board (PCB)/battery 110, which ishoused within an electronics housing 108. The PCB/battery 110 provideselectrical power to the coil 106 to heat the coil 106, and also hascircuitry to control various functions of the electronic smoking device100. These functions may be controlled by a user using various inputsprovided on the electronics housing 108. For example, the electronicshousing 108 has an igniter button 120, which causes power to betransmitted to the coil 106, thereby heating the coil 106 and vaporizingthe material contained in the cooker chamber 107. The electronicshousing 108 also includes a display 122 for displaying information, suchas a current wattage or charge level of the electronic smoking device100. The electronics housing 108 includes buttons 124, 126 for selectingvarious options. For example, the buttons 124, 126 can be used to set awattage for the electronic smoking device 100. The electronics housing108 also includes a micro-USB charging port 128 for charging thePCB/battery 110. A bottom cover 112 encloses the PCB/battery 110 withinthe electronics housing 108.

The electronic smoking device 100 comprises a vaporizer portion, which,in one embodiment, comprises the cooker chamber 107, the coil 106, theelectronics housing 108, and the PCB/battery 110. The vaporizer portionallows a user to heat and inhale vaporized material. The electronicsmoking device 100 also includes a filter portion, which comprises afilter cartridge assembly 114. The filter cartridge assembly 114 allowsa user to exhale emissions back into the electronic smoking device 100to filter out odors and/or particulate matter in the emissions. As suchthe vaporizer portion can be considered to provide an “inhale” functionof the electronic smoking device 100, while the filter cartridgeassembly 114 and/or the filter portion can be considered to provide an“exhale” function of the electronic smoking device 100. As will bedescribed in greater detail below, a user can both inhale vaporizedmaterial and exhale emissions via the mouthpiece 102.

As can be seen in FIG. 1B, and described in greater detail herein, thefilter cartridge assembly 114 can be secured to the mouthpiece 102 byinserting the filter cartridge assembly 114 through the bottom cover112, the electronics housing 108, and the mid enclosure 104. In thedepicted embodiment, the filter cartridge assembly 114 is inserted intoand/or removed from the electronic smoking device 100 through the bottomof the electronic smoking device 100. In certain embodiments, the filtercartridge assembly 114 may be disposable and/or replaceable, such thatwhen a filter cartridge assembly 114 is no longer effective or lesseffective (e.g., due to overuse), it can be replaced with a new one.

FIG. 2A illustrates a front plan view of the electronic smoking device100. FIG. 2B illustrates a cross-sectional view of the electronicsmoking device 100 of FIG. 2A taken along line 2B-2B of FIG. 2A,according to an embodiment of the present disclosure. In FIG. 2B, it canbe seen that the filter portion comprising the filter cartridge assembly114 occupies one side of the electronic smoking device 100, and thevaporizer portion 200 occupies the other side of the electronic smokingdevice 100. When a user inhales on the mouthpiece 102, vaporizedmaterial is pulled up into the user's mouth from the cooker chamber 107.When a user exhales into the mouthpiece 102, emissions from the user'smouth are directed into the filter cartridge assembly 114. As theemissions work through the various filtration mechanisms contained inthe filter cartridge assembly 114 (various embodiments of which will bedescribed in greater detail herein), odors and/or particulate matter arefiltered out. Filtered emissions which are substantially free of odorsand/or particular matter are then expelled out of the bottom of thefilter cartridge assembly 114.

It can be appreciated that using a single mouthpiece for both inhalationof vaporized material and exhalation of emissions can pose variouschallenges. For example, when a user inhales, only vaporized materialfrom the cooker chamber 107 should be pulled up through the mouthpiece102. The user should not be exposed to emissions that have beenpreviously blown into the filter cartridge assembly 114. Similarly, whena user exhales, the user's exhaled emissions should be diverted to thefilter cartridge assembly 114, and such emissions should not enter thecooker chamber 107. Furthermore, emissions diverted to the filtercartridge assembly 114 should pass through the filter cartridge assembly114 with little to no leakage of unfiltered emissions, as leakage ofunfiltered emissions would be contrary to the low emissions/zeroemissions goal of the present disclosure.

In order to carry out these functions, in the embodiment shown in FIGS.2A-2C, a diverter valve 210 is utilized to ensure that only vaporizedmaterial is inhaled by the user, and that exhaled emissions arecorrectly and effectively routed into the filter cartridge assembly 114.FIG. 2C illustrates a close-up view of the cross-sectional view shown inFIG. 2B defined by the area 2C-2C of FIG. 2B. FIG. 2C provides aclose-up view of the diverter valve 210. The diverter valve 210 issealed against the mouthpiece 102 so as to prevent any undesirableleakage of emissions from the filter cartridge assembly 114 and/orvaporized material from the cooker chamber 107. In certain embodiments,the diverter valve 210 includes two one-way valves: an inlet check valve212 and an outlet check valve 214. The inlet check valve 212 is a oneway valve that allows vapors to escape the cooker chamber into themouthpiece 102 on inhale, but substantially blocks and/or prohibitsemissions from entering the cooker chamber from the mouthpiece 102 onexhale. The outlet check valve 214 is a one way valve that allowsexhaled emissions to enter from the mouthpiece 102 into the filtercartridge assembly 114, but substantially blocks and/or prohibitsemissions from exiting the filter cartridge assembly 114 into themouthpiece 102 on inhale.

In the depicted embodiment, the inlet check valve 212 is implementedusing a one-way umbrella valve. When a user inhales on the mouthpiece102, the pressure differential caused by the inhalation causes a bodyportion of the umbrella valve to lift away from a base portion, therebyallowing vaporized materials to move from the cooker chamber 107 intoand out of the mouthpiece 102. However, when a user exhales into themouthpiece 102, the body portion of the umbrella valve is pushed intothe base portion. This causes the body portion to become seated withinthe base portion and closes the inlet check valve 212, therebypreventing any emissions from entering the cooker chamber 107 from themouthpiece 102.

In the depicted embodiment, the outlet check valve 214 is implementedusing a duckbill valve. The duckbill valve includes two or more flapsthat meet at a point (220). When a user inhales on the mouthpiece 102,the flaps are pulled towards one another, thereby closing the outletcheck valve 214. As such, inhalation will not cause any emissions toescape from the filter cartridge assembly 114 into the mouthpiece 102.When the user exhales into the mouthpiece 102, the flaps are pushedapart, creating an opening at the end point 220 and allowing exhaledemissions to flow from the mouthpiece 102 through the outlet check valve214 into the filter cartridge assembly 114.

Although the example embodiments and figures depict the inlet checkvalve 212 as an umbrella valve, and the outlet check valve 214 as aduckbill valve, it should be understood that, in various embodiments,both the inlet check valve 212 and the outlet check valve 214 can beimplemented using any one-way valve.

It can be seen in FIG. 2C that the inlet check valve 212 is tiltedtowards the outlet check valve 214. This angling of the inlet checkvalve 212 allows for any non-gaseous emissions (e.g., spit, resins,etc.) to be pulled towards the outlet check valve 214 and into thefilter cartridge assembly 114 by gravitational forces. In certainscenarios, if the inlet check valve 212 is not angled towards the outletcheck valve 214, liquids and sticky resins can become trapped within themouthpiece 102, which can cause undesirable buildup of waste materialswithin the mouthpiece 102.

FIGS. 3A-C provide various cross-sectional views of the mouthpiece 102,the inlet check valve 212, and the outlet check valve 214.

FIG. 4 illustrates an exploded via of an example filter cartridgeassembly 400, in accordance with an embodiment of the presentdisclosure. In certain embodiments, the filter cartridge assembly 400 ofFIG. 4 can be used as the filter cartridge assembly 114 of FIG. 1B.

The filter cartridge assembly 400 includes an open-ended tubular,cylindrical main enclosure body 414, which is at least partiallyenclosed at the top by an inlet cap 402 and at least partially enclosedat the bottom by a vented outlet cap 422. Between the inlet cap 402 andthe vented outlet cap 422, and housed within the main enclosure body414, are various filtering mechanisms that assist in removing odors andparticulate matter from emissions blown into the filter cartridgeassembly 400. Emissions are received into the filter cartridge assembly400 via the inlet cap 402. Once the emissions pass through variousfiltering mechanisms housed within the main enclosure body 414, clean,filtered emissions are emitted via the vented outlet cap 422.

The inlet cap 402 can be configured to form an airtight seal with theoutlet check valve 214 (see FIGS. 2B, 2C, 3A, 3B, 3C) to ensure thatemissions that have entered the filter cartridge assembly 400 do notleak at the inlet cap/outlet check valve juncture. For example the inletcap 402 can include threads that can be secured to corresponding threadssurrounding the outlet check valve 214. The inlet cap 402 can alsoinclude an O-ring 404 to further ensure a tight seal between the inletcap 402 and the outlet check valve 214.

Below the inlet cap 402 is a mesh screen 406. The mesh screen 406 actsas a demister and assists in condensing vapor emissions into condensate.The mesh screen 406, and any other components described herein, can bemade from any appropriate materials. For example, in certainembodiments, the mesh screen 406 can be made of stainless steel orplastic. Below the mesh screen 406 is an air separator inlet 408. Themesh screen 406 can be sized to substantially cover a top opening of theair separator inlet 408. The air separator inlet 408 is an elongatedtube that is divided into sections by partition walls that run throughsubstantially the length of the air separator inlet 408. The partitionwalls are more clearly shown in FIG. 5C. The partition walls within theair separator inlet 408 divide exhaled emissions into various sections,and provide surface area that encourages further condensation of theemissions. The air separator inlet 408 feeds into a venturi reactionchamber 412. Positioned between the air separator inlet 408 and theventuri reaction chamber 412 is a polyester felt filter 410. Thepolyester felt filter 410 absorbs some portion of the condensate thathas already formed, and also filters out some particulate matter in theemissions. In certain embodiments, the polyester felt filter 410 is a 1micron polyester felt filter.

Emissions then enter the venturi reaction chamber 412, which is afunnel-shaped tube having a wider mouth portion that narrows into anarrower stem portion. This narrowing causes the emissions to acceleratethrough the venturi reaction chamber 412. As emissions acceleratethrough the venturi reaction chamber 412, additional air is pulled intothe venturi reaction chamber 412 through openings 413 proximate a topend of the stem of the venturi reaction chamber 412. As will bedescribed in greater detail below, the design of the venturi reactionchamber 412 assists in keeping emissions trapped within the filtercartridge assembly 400 for a longer period of time, thereby increasingthe effectiveness with which the emissions can be filtered.

The narrower stem portion of the venturi reaction chamber 412 issurrounded by a cylindrical mesh filter 416. The stem portion of theventuri reaction chamber 412 and the cylindrical mesh filter 416 areinserted into a diverter 418. The diverter 418 is surrounded by a ribbedenclosure 419. The ribbed enclosure 419 centers the diverter 418 withinthe main enclosure body 414. The openings in the ribbed enclosure 419allow emissions to circulate around the area between the outer surfaceof the diverter 418 and the inner surface of the main enclosure body414.

It can be seen in FIG. 4 that the diverter 418 has a cylindrical body,and a conical bottom portion. The diverter 418 is enclosed on the bottomand open on the top. As emissions exit the stem of the venturi reactionchamber 412, they are directed towards and reflected off of the conicalbottom portion of the diverter 418 back up into the cylindrical body ofthe diverter 418. As emissions flow through the cylindrical body of thediverter 418, the cylindrical mesh filter 416 encourages the emissionsto condense into condensate. Some of the remaining emissions are pulledback into venturi reaction chamber 412 via openings 413, while someemissions are permitted to escape out of the top of the diverter 418.Any emissions that escape out of the top of the diverter 418 eventuallytravel downwards around the outer surface of the diverter 418 (viaopenings in the ribbed enclosure 419) towards a HEPA filter 420. In someembodiments, the HEPA filter 420 is a 0.25 micron HEPA filter. Incertain embodiments, a carbon filter can be layered with the HEPA filter420 to assist in removing any remaining odors. The HEPA filter 420 (anda carbon filter if there is one) can be secured between the ventedoutlet cap 422 and the ribbed enclosure 419. Once they have passedthrough the HEPA filter 420, filtered emissions exit the filtercartridge assembly 400 via the vented outlet cap 422.

FIG. 5A illustrates a plan view of the filter cartridge assembly 400.FIG. 5B illustrates a cross-sectional view of the filter cartridgeassembly 400 along the line 5B-5B of FIG. 5A, and FIG. 5C illustrates across-sectional view of the filter cartridge assembly 400 along the line5C-5C of FIG. 5A. FIG. 5B illustrates the filter cartridge assembly inits fully assembled form. FIG. 5C illustrates the partition walls thatare formed within the air separator inlet 408.

FIG. 6A illustrates a plan view of the filter cartridge assembly 400,and FIG. 6B illustrates a cross-sectional view of the filter cartridgeassembly 400 along the line 6B-6B of FIG. 6A. FIG. 6B includes arrows toindicate how emissions work their way through the filter cartridgeassembly 400, as was previously described above with reference to FIG.4. Emissions are blown into a mouthpiece of an electronic smokingdevice, and pass through an outlet check valve. Once through the outletcheck valve, emissions enter the filter cartridge assembly 400 via aninlet 402. The emissions then pass through a mesh screen/demister 406,and then through an air separation inlet 408. After exiting the airseparation inlet 408, emissions pass through a polyester felt filter 410into a mouth portion of a venturi reaction chamber 412. Emissionsaccelerate through a narrower stem portion of the venturi reactionchamber 412. As emissions accelerate through the venturi reactionchamber 412, surrounding air inside the filter cartridge assembly 400 ispulled into the venturi reaction chamber 412 via openings 413. Asemissions exit the bottom stem portion of the venturi reaction chamber412, they bounce off of a conical bottom portion of a diverter 418.Emissions bounce off the conical bottom portion of the diverter 418 intoa cavity 417 defined by an outer surface of the venturi reaction chamber412 and an inner surface of the cylindrical body of the diverter 418.Also contained within the cavity 417 is a cylindrical mesh filter 416.As emissions travel up through the cavity 417, the cylindrical meshfilter 416 causes some of the emissions to condense into condensate.Some emissions within the cavity 417 are pulled back into the venturireaction chamber 412 via openings 413, while some emissions escape outof the top of the diverter 418. Emissions that escape out of the top ofthe diverter 418 are directed back down into an outer cavity 421 definedby the inner surface of an outer enclosure 414 and the outer surface ofthe diverter 418, towards a HEPA filter and/or charcoal filter 420.Emissions then exit the filter cartridge assembly 400 via a ventedoutlet cap 422.

FIG. 6C illustrates a cross-sectional view of the filter cartridgeassembly 400 along the line 6C-6C of FIG. 6A. As noted previously, theHEPA filter 420 is secured between the vented outlet cap 422 and theribbed enclosure 419 (see FIG. 4). However, in order for a HEPA filter420 to work effectively, there must be sufficient surface area of theHEPA filter 420 exposed so that emissions can pass through the HEPAfilter 420. As such, narrow strips of material (e.g., ribs) can beutilized to secure the HEPA filter 420 in place between the ventedoutlet cap 422 and the ribbed enclosure 419 while still ensuringsufficient open surface area for emissions to pass through and befiltered. In certain embodiments, no more than 23.5% of the HEPA filter420's surface area should be covered, such that emissions can passthrough at least 76.5% of the HEPA filter's surface area. For example,if the total surface area of the HEPA filter 420 shown in FIG. 6C isapproximately 0.460 sq. in., no more than 0.108 sq. in. of the HEPAfilter 420's surface should be covered/obstructed by the vented outletcap 422 and the ribbed enclosure 419.

FIG. 7A illustrates an exploded view of a filter cartridge assembly 700,in accordance with an embodiment of the present disclosure. In certainembodiments, the filter cartridge assembly 700 can be used as the filtercartridge assembly 114 of FIG. 1B. Filter cartridge assembly 400,discussed above, utilized a combination of condensator design andfilters to both condense emissions into condensate and filter outparticulates and odors. Filter cartridge assembly 700, which is depictedin FIGS. 7-9, utilizes more of a capillary filtration approach. As canbe seen in FIG. 7A, the filter cartridge assembly 700 has, similar tothe filter cartridge assembly 400, a main enclosure body 706 sealed atthe top by an inlet cap 702 and at the bottom by a vented outlet cap710. Housed within the main enclosure body 706 is a concentric 4-stagefilter 704.

FIG. 7B illustrates an exploded view of the concentric 4-stage filter704. The concentric 4-stage filter 704 includes an inner mesh substrate712, surrounded by a large-diameter foam 714 (in this example, a 1micron foam), which is surrounded by an outer mesh substrate 716, whichis surrounded by a small-diameter foam 718 (in this example, a 0.25micron foam). These four, concentric layers are secured to a base 720.As will be described in greater detail with reference to FIGS. 8 and 9,when emissions enter the concentric 4 stage filter 704, they are pushedoutwards, away from a central axis of the concentric 4 stage filter 704.As emissions are pushed outwards, they must pass through the four layersof the concentric 4-stage filter 704. Each layer filters and/orcondenses the emissions to remove particulate matter and odors. Whilethe example embodiment presented has four concentric layers, it shouldbe understood that fewer or more concentric layers can be used.

As seen in FIG. 7A, a HEPA filter 708 is secured between the base 720and the vented outlet cap 710. Once emissions have passed through theconcentric 4 stage filter, they pass through the HEPA filter 708 andclean, filtered emissions exit the vented outlet cap 710. As discussedabove, narrow ribs on the base 720 and the vented outlet cap 710 cansecure the HEPA filter 708 in place while still allowing for sufficientopen surface area that emissions can pass through the HEPA filter 708.

FIG. 8A illustrates a plan view of the filter cartridge assembly 700.FIG. 8B illustrates a cross-sectional view of the filter cartridgeassembly 700 taken along line 8B-8B of FIG. 8A. FIG. 8C illustrates across-sectional view of the filter cartridge assembly 700 taken alongline 8C-8C of FIG. 8A. As can be seen in the figures, there are fourlayers of porous, filtering materials (alternating layers of meshscreens and foams) through which emissions can pass to be filtered.

FIG. 9A illustrates a plan view of the filter cartridge assembly 700.FIG. 9B illustrates a cross-sectional view of the filter cartridgeassembly 700 taken along line 9B-9B of FIG. 9A. FIG. 9C illustrates across-sectional view of the filter cartridge assembly 700 taken alongline 9C-9C of FIG. 9A.

FIG. 9B illustrates a general airflow path taken by emissions as theypass through the filter cartridge assembly 700. Emissions enter throughthe top of the filter cartridge assembly 700, and enter an inner cavity902. In certain embodiments, as seen in FIGS. 8C and 9C, the innercavity 902 may be divided into one or more segments by one or morepartitions. The lower end of the inner cavity 902 is sealed by the base720, and the top of the filter cartridge assembly 700 is sealed by anexhale check valve (such as the outlet check valve 214 of FIGS. 2-3). Assuch, emissions are forced through the porous filtering layers of theconcentric 4 stage filter 704 which define the lateral walls of theinner cavity 902. As a user exhales into the filter cartridge assembly700, emissions are forced through the inner mesh substrate 712, thelarge diameter foam 714, the outer mesh substrate 716, and the smalldiameter foam 718. The mesh substrates 712, 716 force some of theemissions to condense into condensate, and provide some filteringability, while the foam layers 714, 718 filter out particulate matterand odors. Once through all four layers, emissions can pass through thebase 720 and the HEPA filter 708, and then out of the vented outlet cap710.

FIG. 10 illustrates perspective views of various electronic smokingdevices, each of which includes a different way of accessing a vaporizerportion of an electronic smoking device, according to variousembodiments of the present disclosure. As discussed above, it isgenerally desirable that once emissions are exhaled into the electronicsmoking device 100, they are sealed inside and do not leak out withouthaving gone through the filtering mechanisms of the filter cartridgeassembly. As such, in certain embodiments, a diverter valve, such as thediverter valve 210 of FIG. 2, may be sealed to a mouthpiece, such as themouthpiece 102 of FIG. 2, so as to prevent leakage up through thediverter valve and out of the mouthpiece. However, users will generallyneed to access the vaporizer portion of an electronic smoking device.For example, in the example embodiment shown in FIGS. 2-3, users mayhave to change and/or refill the material in the cooker chamber 107. Inorder to ensure that the seal between the diverter valve 210 and themouthpiece 102 remains secure and leak-proof, users may be given accessto the vaporizer portion of an electronic smoking device withoutdisturbing the seal between the diverter valve 210 and the mouthpiece102. In FIG. 10, four different embodiments are shown by which a usercan access a vaporizer portion without removing the mouthpiece 102. Inthe leftmost embodiment, a removable cap is provided which providesaccess to the vaporizer portion without removing the mouthpiece 102.Similarly, in the two center embodiments, a side-hinge cap and atop-hinge cap provide access to the vaporizer portion. In the rightmostembodiment, the mouthpiece 102 has been offset. The mouthpiece 102 is nolonger centered, and is set towards the filter cartridge assemblyportion of the electronic smoking device so as to provide moreconvenient access to the vaporizer portion.

It should be noted that, while the various example embodiments presentedin the figures and discussed above have utilized an open tank electronicsmoking device in which a user can access and refill materials in thecooker chamber, such example embodiments are provided for ease ofexplanation, and the present disclosure is not limited to suchembodiments. The various features and improvements discussed herein suchas, for example, the onboard filtering solutions and bi-directionaldiverter valving systems, can be implemented on any electronic smokingdevice, non-electronic smoking device, and/or vaping device of any formfactor, shape, and/or size. For example, the technologies disclosedherein can be applied to open tank eliquid devices, closed tank eliquiddevices, as well as devices designed for use with any material,including liquid, wax, and dry leaf materials such as cannabis.

FIG. 11A and FIG. 11B illustrate, respectively, a side plan view and afront plan view of another electronic smoking device 1000, according toan embodiment of the present disclosure. The electronic smoking device1000 includes a mouthpiece 1002 secured to a mid-enclosure 1004. Incertain embodiments, the mouthpiece 1002 can be a disposable and/orreplaceable component. In various embodiments, different mouthpieces1002 can be flavored with different flavors such that users can selectand install a mouthpiece 1002 based on a flavor of the user's choosing,and can replace the mouthpiece with a new one should the user wish toexperience a different flavor. It should be understood that this featurecan be applied to any of the various mouthpieces disclosed herein, and,similarly, any features described with respect to any particularcomponent or embodiments described herein can be applied to any othersimilar components or embodiments described herein.

The mid-enclosure 1004 houses a cooker chamber that is configured tocontain a material to be heated and vaporized, such as liquid, oil,flower, or leaf material. The mid-enclosure 1004 can include atransparent portion 1009 so that a user can view material containedwithin the cooker chamber. The electronic smoking device 1000 includesan igniter button 1020 that a user can press to heat and vaporizematerial in the cooker chamber, and a charging port 1028 to charge theelectronic smoking device 1000.

FIG. 12 illustrates a cross-sectional view of the electronic smokingdevice 1000 taken along a line 12-12 of FIG. 11B, according to anembodiment of the present disclosure. In FIG. 12, it can be seen that afilter portion comprising a filter cartridge assembly 1014 occupies oneside of the electronic smoking device 1000, and a vaporizer portion 1100occupies the other side of the electronic smoking device 1000. Invarious embodiments, the filter cartridge assembly 1014 can be adisposable and/or replaceable component such that users can periodicallyreplace the filter cartridge assembly 1014 with a new, fresh filtercartridge assembly.

It can be seen that, in general, the structure of the electronic smokingdevice 1000 is fairly similar to the electronic smoking device 100described earlier in this disclosure. However, one notable difference inthis embodiment is the placement of an inlet check valve 1112 within thevaporizer portion 1100 and an outlet check valve 1114 within the filtercartridge assembly 1014. In a previous embodiment depicted in FIG. 2Band FIGS. 3A-C, an inlet check valve 212 and an outlet check valve 214were positioned within a mouthpiece 102. However, in this embodiment,these components have been moved into the vaporizer portion 1100 and thefilter cartridge assembly 1014, respectively. The various components ofthe vaporizer portion 1100 and the filter cartridge assembly 1014 willnow be described in greater detail with reference to FIGS. 13, 14, and15A-D.

FIG. 13 illustrates an exploded view of the electronic smoking device1000, without the filter cartridge assembly 1014, and with particularemphasis on the vaporizer portion 1100, according to an embodiment ofthe present disclosure. FIG. 13 depicts the mouthpiece 1002, which issecured to the mid-enclosure 1004. The mid-enclosure 1004 is at leastpartially enclosed by an external housing 1008. The mid-enclosure 1004houses a cooker chamber 1006, which is configured to contain a materialto be heated and vaporized. The cooker chamber 1006 also includes aheating element, such as a coil, to heat and vaporize material containedtherein. The heating element may draw power from a battery 1010. Thecooker chamber 1006 is sealed by a seal 1113. The seal 1113 and a valvehousing 1115 are secured together to house an inlet check valve 1112.The inlet check valve 1112 is a one way valve that allows vapors toescape the cooker chamber 1006 into the mouthpiece 1002 when a userinhales on the mouthpiece 1002, but substantially blocks and/orprohibits emissions from entering the cooker chamber 1006 or thevaporizer portion 1100 when the user exhales into the mouthpiece 1002.For example, when a user inhales, the inlet check valve 1112 can liftaway from the valve housing 1115, allowing air to flow into the cookerchamber 1006 and out of the mouthpiece 1002. When the user exhales, theinlet check valve 1112 can be pushed against the valve housing 1115,preventing any air from entering the cooker chamber 1006 or thevaporizer portion 1100.

FIG. 14 illustrates an exploded view of a filter cartridge assembly1400, according to an embodiment of the present disclosure. In variousembodiments, the filter cartridge assembly 1400 may be used as thefilter cartridge assembly 1014 of FIG. 12. In various embodiments, thefilter cartridge assembly 1400 may be used in conjunction with any ofthe various electronic smoking device embodiments described herein.

The filter cartridge assembly 1400 includes an open-ended cylindricalouter body 1414, which is at least partially enclosed at the top by aninlet cap 1402 and at least partially enclosed at the bottom by a ventedoutlet cap 1422. The inlet cap 1402 can, in various embodiments, besealed with O-rings, a quarter turn lock, and/or a threaded seal withthe outer body 1414, or any other appropriate sealing mechanisms, toform a leak-free seal. Between the inlet cap 1402 and the vented outletcap 1422, and housed within the main enclosure body 1414, are variousfiltering mechanisms that assist in removing odors and particulatematter from emissions blown into the filter cartridge assembly 1400.Emissions are received into the filter cartridge assembly 1400 via theinlet cap 1402. Once the emissions pass through various filteringmechanisms housed within the main enclosure body 1414, clean, filteredemissions are emitted via the vented outlet cap 1422.

In the example embodiment shown in FIG. 14, emissions pass through theinlet cap 1402 into an air separator 1408. The air separator 1408 can bean elongated tube that is divided into sections by partition walls,similar to the air separator inlet 408 described above with reference toFIG. 4. The air separator 1408 divides exhaled emissions into varioussections, and provides surface area that encourages condensation of theemissions. Once emissions pass through the air separator 1408, they passthrough cylindrical mesh filter 1416. In various embodiments, the meshfilter 1416 may comprise a stainless steel material, plastic, and/orpolymer material. The mesh filter 416 is also surrounded by a HEPAfilter 1420. The HEPA 1420 filter is secured and sealed to the meshfilter 1416 and/or the air separator 1408 by an adhesive 1421 thatsurrounds the perimeter of the HEPA filter 1420. Once emissions passthrough the HEPA filter 1420, they are pushed down towards another airseparator 1419, through an outlet check valve 1114, and out through thevent cap 1422.

The air separator 1419 and the vent cap 1422 are ribbed to allow air topass through (see, e.g. FIG. 15D), and the outlet check valve 1114 issecured between the air separator 1419 and the vent cap 1422. The outletcheck valve 1114 is a one way valve that acts opposite the inlet checkvalve 1112 described above. The outlet check valve 1114 allows a user toexhale air into the mouthpiece 1002 and out through the filter cartridgeassembly 1400, but substantially blocks and/or prohibits air frompassing through the filter cartridge assembly 1400 into the mouthpiece1002 when a user inhales on the mouthpiece 1002. For example, when auser exhales, the outlet check valve 1114 can lift away from the airseparator 1419, allowing air to flow into and through the filtercartridge assembly 1400 and out of the vented outlet cap 1422. When theuser inhales, the outlet check valve 1114 can be pushed against the airseparator 1419, preventing any air from moving through the filtercartridge assembly 1400.

FIG. 15A illustrates a plan view of the filter cartridge assembly 1400,according to an embodiment of the present disclosure. FIG. 15Billustrates a cross-sectional view of the filter cartridge assembly 1400along the line 15B-15B of FIG. 15A. FIG. 15C illustrates a close-up viewof the filter cartridge assembly 1400. It can be more clearly seen inFIGS. 15B and 15C that when a user exhales into a mouthpiece of anelectronic smoking device (such as the mouthpiece 1002 of the electronicsmoking device 1000 of FIG. 12), emissions from the user enter thefilter cartridge assembly 1400 through the inlet cap 1402 into the airseparator 1408. Emissions are then pushed through the mesh filter 1416and the HEPA filter 1420. The filtered emissions then pass through theair separator 1419 and the outlet check valve 1114, and out of thefilter cartridge assembly 1400 via the vent cap 1422.

FIG. 15D illustrates a cross-sectional view of the filter cartridgeassembly 1400 along the line 15D-15D of FIG. 15A. FIG. 15D showsopenings in the air separator 1419 and the vented outlet cap 1422 thatallow the two components to secure the outlet check valve 1114 whilestill allowing air to pass through. When a user inhales on an electronicsmoking device, the outlet check valve 1114 seals against the airseparator 1419 to prevent air from flowing through the filter cartridgeassembly 1400. When a user exhales on an electronic smoking device, theoutlet check valve 1114 lifts away from the air separator 1419, allowingair to flow through the filter cartridge assembly 1400.

FIG. 16A illustrates a perspective view of an electronic smoking device1600, according to an embodiment of the present disclosure. FIG. 16Billustrates an exploded view of the electronic smoking device 1600. Theelectronic smoking device 1600 includes a mouthpiece 1602 secured to abody enclosure 1604. In certain embodiments, as discussed above, themouthpiece 1602 can be a disposable and/or replaceable component. Thebody enclosure houses a vaporizer cartridge assembly 1620 and a filtercartridge assembly 1630. The vaporizer cartridge assembly 1620 houses amaterial to be heated and vaporized. In various embodiments, thevaporizer cartridge assembly 1620 can be a removable and disposablecomponent such that when the vaporizer cartridge assembly 1620 issubstantially empty (e.g., a user has vaporized all material containedwithin the vaporizer cartridge assembly 1620), it can be replaced with anew vaporizer cartridge assembly. In various embodiments, the vaporizercartridge assembly 1620 can also be a sealed assembly such that usersare discouraged and/or prevented from refilling the vaporizer cartridgeassembly 1620.

The body enclosure 1604 includes a display 1606. The display 1606 canbe, for example, an electronic display. In another example, the display1606 can be a transparent window through which a user can view materialcontained in the cartridge assembly 1620. The electronic smoking device1600 includes an igniter button 1608 that a user can press to heat andvaporize material in the vaporizer cartridge assembly 1620, one or moreLED display lights 1610, and a charging port 1612 to charge theelectronic smoking device 1600. The one or more LED display lights 1610may provide an indication of, for example, remaining battery charge leftin the electronic smoking device 1600, a wattage level of the electronicsmoking device 1600, and/or a remaining cartridge life for the vaporizercartridge assembly 1620. The body enclosure 1604 also includes aremovable storage cover 1614. As will be described in greater detailbelow, the removable storage cover 1614 can be removed to reveal astorage compartment in which, for example, additional vaporizercartridge assemblies can be stored.

FIG. 17A illustrates a front plan view of the electronic smoking device1600. FIG. 17B illustrates a cross-sectional view of the electronicsmoking device 1600 taken along a line 17B-17B of FIG. 17A, according toan embodiment of the present disclosure. In FIG. 17B, it can be seenthat the vaporizer cartridge assembly 1620 is connected to a PCB/battery1622. The electronic smoking device 1600 comprises a vaporizer portion1602, which comprises the vaporizer cartridge assembly 1620 and thePCB/battery 1622. The electronic smoking device 1600 also comprises afilter portion 1603 which comprises the filter cartridge assembly 1630.In various embodiments, both the vaporizer cartridge assembly 1620 andthe filter cartridge assembly 1630 can be a disposable and/orreplaceable components such that users can periodically replace thevaporizer cartridge assembly 1620 with a new vaporizer cartridgeassembly, and can periodically replace the filter cartridge assembly1630 with a new filter cartridge assembly.

Similar to the embodiments shown in FIGS. 12-15, the vaporizer cartridgeassembly 1620 includes an inlet check valve 1650 and the filtercartridge assembly 1650 includes an outlet check valve 1660. Similar toother inlet check valves described herein, the inlet check valve 1620 isa one way valve that allows vapors to escape the vaporizer cartridgeassembly 1620 into the mouthpiece 1602 when a user inhales on themouthpiece 1602, but substantially blocks and/or prohibits emissionsfrom entering the vaporizer cartridge assembly 1620 when the userexhales into the mouthpiece 1602. The outlet check valve 1660 allows auser to exhale air into the mouthpiece 1602 and out through the filtercartridge assembly 1630, but substantially blocks and/or prohibits airfrom passing through the filter cartridge assembly 1630 into themouthpiece 1602 when a user inhales on the mouthpiece 1602.

FIG. 18A illustrates an exploded view of a filter cartridge assembly1800, according to an embodiment of the present disclosure. FIG. 18Billustrates a plan view of the filter cartridge assembly 1800 in anassembled state, according to an embodiment of the present disclosure.FIG. 18C illustrates a cross-sectional view of the filter cartridgeassembly 1800 in the assembled state along the line 18C-18C of FIG. 18B.In various embodiments, the filter cartridge assembly 1800 may be usedas the filter cartridge assembly 1630 of FIG. 16B. In variousembodiments, the filter cartridge assembly 1800 may be used inconjunction with any of the various electronic smoking deviceembodiments described herein. In various embodiments, any of the variousfilter cartridge assembly embodiments disclosed herein may be used inconjunction with any of the various electronic smoking deviceembodiments described herein.

The filter cartridge assembly 1800 includes an open-ended outer body1810, which is enclosed at the top by an inlet cap 1804 and enclosed atthe bottom by a vented outlet cap 1814. The inlet cap 1804 can, invarious embodiments, be sealed with O-rings (such as the O-ring 1802), aquarter turn lock, a threaded seal, or simply a tight material fitwithin the outer body 1810, or any other appropriate sealing mechanisms,to form a leak-free seal. Between the inlet cap 1804 and the ventedoutlet cap 1814, and housed within the main enclosure body 1810, arevarious filtering mechanisms that assist in removing odors andparticulate matter from emissions blown into the filter cartridgeassembly 1800. Emissions are received into the filter cartridge assembly1800 via the inlet cap 1804. Once the emissions pass through variousfiltering mechanisms housed within the main enclosure body 1810, clean,filtered emissions are emitted via the vented outlet cap 1814.

In the example embodiment shown in FIG. 18, emissions pass through theinlet cap 1804 into a mesh support structure 1807. The mesh supportstructure 1807 supports a cylindrical mesh filter 1806. In variousembodiments, the mesh filter 1806 may comprise a stainless steelmaterial, plastic, and/or polymer material. The mesh filter 1806 is alsosurrounded by a HEPA filter 1808. The HEPA 1808 filter is secured andsealed to the mesh filter 1806, the mesh support structure 1807, theinlet cap 1804, and/or the vented outlet cap 1814 by an adhesive 1809that surrounds the perimeter of the HEPA filter 1808. A top end of themesh support structure 1807, proximate the inlet cap 1804, is open toallow emissions to flow in from the inlet cap 1804. An opposite bottomend of the mesh support structure 1807 can be closed such that emissionswhich enter the inlet cap 1804 must pass through the mesh filter 1806and the HEPA filter 1808. Once emissions have passed through both themesh filter 1806 and the HEPA filter 1808, the emissions can moved pastan open outlet check valve 1812 and out of the filter cartridge assembly1800 through the vented outlet cap 1814.

FIG. 19A illustrates an exploded view of a filter cartridge assembly1900 which is a slightly modified embodiment of the filter cartridgeassembly 1800. In FIG. 19A, the HEPA filter 1808 from FIG. 18A has beenreplaced by a corrugated filter 1908. The corrugated filter 1908 mayalso be a HEPA filter, but corrugated. The corrugated shape of thecorrugated filter 1908 provided additional surface area for additionalfiltering, while also providing more channels to provide improvedairflow through the filter cartridge assembly 1800. FIG. 19B provides aplan view of the support structure 1807 and corrugated filter 1908. FIG.19C provides a cross-sectional view of the support structure 1807 andcorrugated filter 1908 taken along the line 19C-19C of FIG. 19B.

FIG. 20A illustrates a perspective view of the electronic smoking device1600 of FIG. 16A. FIG. 20B illustrates a perspective view of theelectronic smoking device 1600 in which the removable storage cover 1614has been removed to reveal two compartments 1621 for storing additionalvaporizer cartridge assemblies 1620 a, 1620 b.

While various embodiments of the disclosed technology have beendescribed above, it should be understood that they have been presentedby way of example only, and not of limitation. Persons skilled in theart will appreciate that various modifications can be made withoutdeparting from the invention. Likewise, the various figures may depictan example configuration for the disclosed technology, which is done toaid in understanding the features and functionality that can be includedin the disclosed technology. For example, while the example electronicsmoking device 100 is depicted and described in conjunction with avaporizer portion 200 and a filter cartridge assembly 114; theelectronic smoking device 1000 is depicted and described in conjunctionwith a vaporizer portion 1100 and a filter cartridge assembly 1014; andthe electronic smoking device 1600 is depicted and described inconjunction with a vaporizer portion 1601 and a filter portion 1603, itshould be understood that the various vaporizer portions and/orfiltering portions and their respective components can be usedinterchangeably and in various combinations and used in differentelectronic smoking device embodiments. Similarly, while various examplematerials and example sizes have been disclosed, such materials andsizes are disclosed only as possible embodiments to aid in understandingand describing various features and functionality of the disclosedtechnology. The disclosed technology is not restricted to theillustrated example configurations, but the desired features can beimplemented using a variety of alternative configurations. It istherefore intended that the scope of the invention be limited not bythis detailed description, but rather by any claims that issue on anapplication based hereon. Accordingly, the disclosure of the embodimentsof the invention is intended to be illustrative, but not limiting, ofthe scope of the invention. Accordingly, the invention is defined onlyby the following claims.

The invention claimed is:
 1. A filter cartridge assembly for filteringemissions, the filter cartridge assembly comprising: a mouthpiece intowhich emissions can be exhaled into the filter cartridge assembly; aporous filter in communication with the mouthpiece such thatsubstantially all emissions that are exhaled into the filter cartridgeassembly pass through the porous filter; and an outlet check valve thatpermits emissions to be exhaled into the filter cartridge assembly andsubstantially prohibits emissions from being inhaled out of the filtercartridge assembly.
 2. The filter cartridge assembly of claim 1, whereinthe porous filter comprises a mesh filter.
 3. The filter cartridgeassembly of claim 2, wherein the mesh filter comprises a stainless steelmaterial.
 4. The filter cartridge assembly of claim 2, wherein the meshfilter comprises a polymer material.
 5. The filter cartridge assembly ofclaim 2 wherein the mesh filter comprises a HEPA filter.
 6. The filtercartridge assembly of claim 1, wherein the outlet check valve is aone-way valve that opens when a user exhales into the filter cartridgeassembly and seals when the user inhales from the filter cartridgeassembly.
 7. The filter cartridge assembly of claim 1 furthercomprising: an inlet cap secured to a first end of an outer enclosure;and a vented outlet cap secured to a second end of the outer enclosure;wherein the inlet cap, the outer enclosure, and the vented outlet capsubstantially enclose the porous filter; wherein the outlet check valvepermits emissions to be exhaled into the inlet cap, through the outerenclosure, and out the vented outlet cap; and wherein the outlet checkvalve substantially prohibits emissions from being inhaled into thevented outlet cap, through the outer enclosure, and out the inlet cap.8. The filter cartridge assembly of claim 7, wherein the outlet checkvalve is positioned within the outer enclosure between the inlet cap andthe vented outlet cap.
 9. The electronic smoking device of claim 8,wherein the outlet check valve is secured between the outer enclosureand the vented outlet cap.